Report: 2008-06-01 Emission Control Technologies for Ocean Going

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Report: 2008-06-01 Emission Control Technologies for Ocean Going ================================================================== EMISSION CONTROL TECHNOLOGIES FOR OCEAN GOING VESSELS (OGVs) ================================================================== Final Report Submitted to: State of California Air Resources Board Research Division PO Box 2815 Sacramento CA 95812 Hamid Hefazi, Ph.D. Principal Investigator: Center for Energy and Environmental Research and Services (CEERS) Department of Mechanical and Aerospace Engineering California State University, Long Beach (CSULB) Long Beach, CA 90840 & Hamid R. Rahai, Ph.D. Co-Principal Investigator Center for Energy and Environmental Research and Services (CEERS) Department of Mechanical and Aerospace Engineering California State University, Long Beach (CSULB) Long Beach, CA 90840 Prepared Under ARB Contract # 06-327 June, 2008 DISCLAIMER The statements and conclusions in this Report are those of the contractor and not necessarily those of the California Air Resources Board. The mention of commercial products, their source, or their use in connection with material reported herein is not to be construed as actual or implied endorsement of such products. 2 AUTHORS’ DISCLAIMER The contents of this report are based on published information as well as some information provided by various technology providers. While the authors, to the extent possible, have assessed the data that has been provided by industry for accuracy, the information primarily reflects the views of the providers. The authors have not performed independent, in depth validation of these performance data. ACKNOWLEDGEMENTS This study was supported with a grant (agreement number 06-327) from the California Air Resources Board CARB, research division to California State University, Long Beach (CSULB) foundation. The authors would like to thank program manager Mr. Steve Church and Mr. Paul Milkey from CARB for their support and continued extensive and very valuable guidance during the course of this study. We also would like to acknowledge Mr. Goran Hellen of Wartsila, Kjeld Aabo of MAN B&W, Josh Mauzey and Durai Swamy of Intelligent Energy, Craig Smith of British Petroleum West Coast Product, Bill Van Wormer and Mathew Winkler of Seaworthy System, Inc, and Mr. Robert Clarke of Marine Exhaust Solution (MES) for their support and willingness to provide valuable information and data. The study was performed with significant contributions from graduate student Mr. Jian Lahir, research associate Ms. Asieh Jalali, Ms. Laju Tejwani and Ms. Shirin Lakpour, of Mechanical and Aerospace Engineering Department and Center for Energy and Environmental Research and Services (CEERS) at California State University, Long Beach. 3 TABLE OF CONTENTS DISCLAIMER .............................................................................................................................................. 2 AUTHORS' DISCLAIMER………………………………………………………………………………..3 ACKNOWLEDGEMENTS ......................................................................................................................... 3 LIST OF TABLES........................................................................................................................................ 5 LIST OF FIGURES...................................................................................................................................... 6 NOMENCLATURE ..................................................................................................................................... 7 EXECUTIVE SUMMARY .......................................................................................................................... 9 1. INTRODUCTION ................................................................................................................................. 12 2. MARINE DIESEL ENGINE EMISSIONS ......................................................................................... 14 3. COST EFFECTIVENESS..................................................................................................................... 16 4. METHODS FOR REDUCING MARINE ENGINE EMISSIONS.................................................... 17 4.1 ENGINE OPTIMIZATION ...................................................................................................................... 17 4.2 SLIDE VALVE ..................................................................................................................................... 17 4.3. CYLINDER LUBRICATION ................................................................................................................... 18 4.4 COMMON RAIL................................................................................................................................... 19 4.5 ENGINE PROCESS MODIFICATIONS ..................................................................................................... 21 4.5.1 Water Injection.......................................................................................................................... 21 4.6 SELECTIVE NON- CATALYTIC REDUCTION (SNCR) ........................................................................... 26 4.7 AFTER TREATMENT PROCESSES ......................................................................................................... 27 4.7.1 Selective Catalytic Reduction (SCR) ......................................................................................... 27 4.7.2 Seawater Scrubbing Processes.................................................................................................. 31 4.7.3 Oxidation Reactors.................................................................................................................... 32 4.7.4 NOx Absorber Catalyst (NAC).................................................................................................. 32 4.7.5 Lean NOx Trap (LNT)............................................................................................................... 33 4.7.6 Diesel Particulate Filters (DPF)............................................................................................... 33 4.8 LOW SULFUR DIESEL FUELS AND ALTERNATIVES.............................................................................. 34 4.9 EMERGING TECHNOLOGIES AND RESEARCH....................................................................................... 37 5 DISCUSSIONS AND CONCLUSIONS................................................................................................ 40 5.1 ENGINE OPTIMIZATION PROCESS ....................................................................................................... 41 5.2 ENGINE PROCESS MODIFICATIONS ..................................................................................................... 41 5.3 AFTER TREATMENT PROCESSES ......................................................................................................... 41 6 APPENDIX.............................................................................................................................................. 45 6.1 COMPANIES PROVIDING WATER INJECTION SYSTEMS........................................................................ 45 6.2 COMPANIES PROVIDING SCR SYSTEMS ............................................................................................. 48 6.3 COMPANIES PROVIDING SEAWATER SCRUBBING SYSTEMS................................................................ 55 6.4 COMPANIES PROVIDING SCRUBBING TECHNOLOGY........................................................................... 64 7 REFERENCES ....................................................................................................................................... 69 4 LIST OF TABLES TABLE 1. 2001 AND 2020 STATEWIDE EMISSIONS FROM PORTS AND GOODS MOVEMENT............................ 13 TABLE 2. TRENDS IN EMISSIONS FROM PORTS AND GOODS MOVEMENT WITH FULL IMPLEMENTATION OF THE CARB PLAN STRATEGIES (TONS PER DAY).......................................................................................... 13 TABLE 3. BENEFIT-COST RATIO FOR PLAN STRATEGIES THROUGH 2020 (PRESENT VALUE)......................... 13 TABLE 4. EXHAUST GAS COMPONENTS OF DIESEL AND GAS ENGINES......................................................... 15 TABLE 5. COST EFFECTIVENESS FOR BASIC AND ADVANCED IEM............................................................... 20 TABLE 6. COMPANIES MANUFACTURING WATER INJECTION SYSTEMS......................................................... 22 TABLE 7. COST EFFECTIVNESS FOR FOR REMOVING NOX WITH DIRECT WATER INJECTION ($/TON) ........... 23 TABLE 8. COST EFFECTIVENESS WITH HUMID AIR MOTORS FOR NOX REMOVAL ($/TON)........................... 25 TABLE 9. MARINE VESSELS WITH SCR SYSTEM........................................................................................... 28 TABLE 10. COST EFFECTIVENESS OF THE SCR SYSTEM FOR REMOVING NOX ($/TON) ................................. 29 TABLE 11. COMPANIES MANUFACTURING SCR SYSTEMS ............................................................................ 30 TABLE 12. COST EFFECTIVENESS OF A SCRUBBING SYSTEM FOR SOX REMOVAL ($/TON)............................ 31 TABLE 13. COMPANIES INVOLVED IN SEAWATER SCRUBBING TECHNOLOGY............................................... 32 TABLE 14. EMISSION REDUCTION GOALS FOR IP-HERCULES PROJECT ......................................................... 39 TABLE 15. NOX REDUCTION EFFICIENCY OF DIFFERENT MEASURES AS A PERCENTAGE OF BASELINE EMISSIONS ............................................................................................................................................................
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